Kidney patients’ heart health may be jeopardized by byproduct of intestinal bacteria

New research suggests that an organic byproduct generated by intestinal bacteria may be responsible for the formation of cholesterol plaques in the arteries of individuals with decreased kidney function

New research suggests that an organic byproduct generated by intestinal bacteria may be responsible for the formation of cholesterol plaques in the arteries of individuals with decreased kidney function. The findings, which appear in an upcoming issue of the Journal of the American Society of Nephrology (JASN), suggest that targeting this byproduct may be a strategy for safeguarding the heart health of patients with chronic kidney disease.

Atherosclerosis is common in CKD patients, and contributes to the development of heart disease, which is the leading cause of death in this group.

Trimethylamine-N-oxide (TMAO) is generated by certain intestinal bacteria as they metabolize the dietary nutrients choline and L-carnitine. Research has shown that giving TMAO to rodents promotes atherosclerosis and that humans with higher concentrations of TMAO in the bloodstream are at increased risk of developing heart disease. Because TMAO is cleared from the bloodstream almost exclusively by urinary excretion, the kidneys likely play an important role in maintaining low blood levels of the compound.

In a study of 104 patients with CKD, Jason Stubbs, MD, Alan Yu, MB, BChir (The Kidney Institute at the University of Kansas Medical Center), and their colleagues found that blood levels of TMAO increased as kidney function declined. In a subset of 6 patients who underwent kidney transplantation, the procedure led to a significant drop in TMAO levels. Furthermore, in a separate group of 220 CKD patients, high levels of TMAO in the bloodstream were linked with an increased risk of atherosclerosis and death over a 4-year period.

“Based on evidence that TMAO production is dependent on the metabolism of specific dietary constituents by intestinal bacteria, therapies targeting the generation of TMAO precursors by intestinal bacteria may represent a novel strategy for reducing cardiovascular disease and mortality in patients with CKD,” said Dr. Stubbs.

In an accompanying editorial, W.H. Wilson Tang, MD (Cleveland Clinic) noted that dietary sources of TMAO generation, such as some species of deep-sea fish, eggs, and meat, should be reviewed and possibly reduced in the diets of patients with CKD. He also stressed that there is considerable excitement over the prospects of modulating intestinal microbiota as a therapeutic strategy in CKD. “There is much to learn in this complex relationship between ourselves and the microbes living within,” he wrote.

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